formation and occurrence of disinfection by-products
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Formation and Occurrence of Disinfection By-Products
Susan D. Richardson
U.S. Environmental Protection Agency, National Exposure Research Laboratory, Athens, GA
U.S. Environmental Protection AgencyOffice of Research & Development
Drinking Water DBPs• Formed by the reaction of disinfectants with natural organic matter
Concern over possible humanhealth risk:
• Epidemiologic studies: risk of bladder cancer; some cause cancer in laboratory animals
• Recent concerns about possiblereproductive & developmentaleffects (from epi studies)
Will Cover
• How DBPs are formed
• Occurrence of regulated and emerging DBPs
• Issues with alternative disinfectants
• Ways to minimize DBPs
• Next steps for future research
DBPs Regulated by the U.S. EPADBP MCL (µg/L)
Total THMs 80(Chloroform, bromoform, bromodichloromethane, Chlorodibromomethane)
5 Haloacetic acids 60(Chloro-, dichloro-, trichloro-, bromo-, dibromo-acetic acid)
Bromate 10Chlorite 1000
But more than 600 DBPs have been identifiedLittle known about occurrence, toxicity of unregulated DBPs
Trihalomethanes 20.1%
Unknown organic halogen 62.4%
Haloacetonitriles 2%
Chloral hydrate 1.5%
Sum of 5 haloacetic acids 10%
Bromochloroacetic acid 2.8%
Cyanogen chloride 1%
Data courtesy of Stuart Krasner, Metropolitan Water District of Southern California
~50% of TOX >1000 Da: Khiari, et al., Proc. 1996 AWWA Water Quality Technology Conference
What we know about Total Organic Halide (TOX)
DBPs from Different Disinfectants
Halogenated organic DBPs (but generally lower levels than chlorine)
Haloamides, haloacetonitriles may be increasedInorganic chloramines (di-, tri-chloramine)Nitrosamines (higher levels than chlorine)Iodo-THMs and iodo-acids
Chloramine
Non-halogenated aldehydes, ketones, carboxylic acidsNitrosamines (with nitrogen-containing coagulants)
Chlorate (contaminant from hypochlorite bleach)Halogenated organic DBPs Chlorine
DBPs from Different Disinfectants
OzoneNon-halogenated aldehydes, ketones, carboxylic acids (e.g.,
formaldehyde)Halonitromethanes (with post-chlorine/chloramine)Bromate and other brominated DBPs (when bromide is present)
Non-halogenated aldehydes, ketones, carboxylic acids
A few brominated DBPs when bromide is present (but generally lower levels than chlorine or chloramine)
Chlorite, chlorate Chlorine dioxide
Sub to low-ppbHaloaldehydes
Low to mid-pptHalofuranones (MX analogues)Sub to low-ppbIodo- and other halo-acidsSub to low-ppbIodo-THMsSub to low-ppbHalonitromethanesSub to low-ppbHaloamidesSub to low-ppbHaloketones
Sub to low-ppbHaloacetonitrilesHigh ppbChlorateHigh ppbChloriteSub to low-ppbBromate
OxyhalidesLow to mid-ppbHAAsLow to mid-ppbTHMs
Concentrations
Sub to low-ppbCarboxylic acidsLow to mid-pptNitrosamines
Sub to low-ppbAldehydes and ketones
Non-halogenated DBPs
Nationwide DBP Occurrence Study
Krasner, Weinberg, Richardson, et al., Environ. Sci. Technol. 2006, 40, 7175-7185.
• Prioritized >500 unregulated DBPs reported in literature (likely to cause cancer)
• Measured these in waters across U.S.
• Important findings:
• New emerging DBPs identified (e.g., iodo-acids)
• Alternative disinfectants increased formation of many priority DBPs
• Many priority, unregulated DBPs found at significant levels
Iodo-THMs
12
34
56
THM4
Iodinated THMs
CHCl 2I
CHClI 2 CHClBrI
CHBrI 2
CHBr 2I
CHCl 3
CHCl 2Br
CHClBr 2
CHBr 3
0
2
4
6
8
10
12
THM
(μ
g/L)THM4 Iodinated THMs
3 Cl 2 Cl1 Cl
0 Cl
Highest levels found at a chloramination plantKrasner, Weinberg, Richardson, et al., Environ. Sci. Technol. 2006, 40, 7175-7185.
Chlorine:
I- + HOCl HOI IO2- IO3
-fast fast
Sink for iodide
iodateiodite
fast
HOCl also competes for rxn with NOM, so much lower iodo-DBPs with chlorine
NOM
iodo-DBPsNOM
Cl-DBPs
fast
HOCl HOCl
Iodo-DBPs Maximized with Chloramines
Chloramines:
I- + NH2Cl HOI IO2- IO3
-
iodateiodite
fast slow
NOM
iodo-DBPsNOM
Cl-DBPs
Xfast
HOI also has longer half-life in chloraminated waters
Adapted from Bichsel and von Gunten1999 and 2000
New Iodo-Acids
Iodoacetic acid Bromoiodoacetic acid
C OH
O
C
H
I
H Br
I
C
H
O
OHC
(Z)-3-Bromo-3-iodopropenoic acid (E)-3-Bromo-3-iodopropenoic acid (E)-2-Iodo-3-methylbutenedioic acid
C C
I
Br
C
O
H
OH
HI
Br
C C
C
O
OH
CH3I
C
O
HO C
O
OH
C C
Initially discovered using GC/MSHighly genotoxicIncrease in formation with NH2Cl vs. Cl2 (up to 1.7 ppb)Occurrence Study now completed (23 cities in U.S. & Canada)
Richardson et al., Environ. Sci. Technol. 2008, ASAP.
Iodide vs. Iodo-Acid Concentrations
0
0.2
0.4
0.6
0.8
1
1.2
0 20 40 60 80 100 120
Iodide (µg/L)
Sum
of I
odo-
Aci
ds (µ
g/L
Nitrosodimethylamine (NDMA)
• On the UCMR-2
• Formed as a DBP from chloramine and chlorine (DADMAC coagulants)
• Probable human carcinogen• 2004: Found up to 180 ng/L in finished water from Canada
• N-nitrosopyrrolidine, N-nitrosomorpholine, N-nitrosopiperidine,N-nitrosodiphenylamine also now found as DBPs
• Initially detected in Calif. groundwater wells in 1998 at 0.15 ppb• Action level is 10 ppt (ng/L) (in Calif.)
• Ontario has MCL of 9 ng/L in drinking water
N N O
H3C
H3C
EPA Method 521: www.epa.gov/nerlcwww/m_521.pdf
How can we minimize DBPs?
Before• Remove NOM (or Br/I) before treatment (e.g., enhanced coagulation, membranes)
During• Change disinfectant or treatment conditions (e.g., pH)
After• Remove DBPs after they are formed (e.g., biological filtration, GAC)
• Human health effects not solved yet—need more toxicity studies
• Studies on route of exposure
• DBPs are present as complex mixtures—need toxicity studies addressing this Four Lab Study
• What is in the unidentified fraction—anything of concern? High Molecular Weight DBP Study
• What about DBPs from alternative disinfectants—do we know everything we need to know before plants switch?
• UV disinfection? Membrane disinfection?
• What about ‘pollutant’ DBPs?
What’s Next?
‘Pollutant’ DBPs…
• Pesticides• Pharmaceuticals• Antibacterial agents• Estrogens• Textile dyes• Pesticides• Bisphenol A• Parabens• Alkylphenol ethoxylate surfactants• Algal toxins
Acknowledgments
Coauthors on Mutation Research Review:Michael Plewa, Elizabeth Wagner, Rita Schoeny, David DeMarini
Nationwide DBP Occurrence Study:Stuart Krasner, Howard Weinberg, Sal Pastor, Russell Chinn, Michael Sclimenti, Gretchen Onstad, Al Thruston
Iodo-DBP Occurrence Study:Francesca Fasano, Jackson Ellington, Gene Crumley, Kate Buettner, John Evans, Ben Blount, Lalith Silva, Tim Waite, George Luther, Bruce McKague, Dick Miltner, Elizabeth Wagner, Michael Plewa
Michael Plewa Tony DeAngelo
Jane Ellen Simmons
David DeMarini
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